Quantifying azimuthal variations within the interstellar medium of z ~ 0 spiral galaxies with the TYPHOON survey

Chen, Qian-Hui; Grasha, Kathryn; Battisti, Andrew J; Wisnioski, Emily; Li, Zefeng; Park, Hye-Jin; Groves, Brent; Torrey, Paul; Mendel, Trevor; Madore, Barry F; Seibert, Mark; Sextl, Eva; Garcia, Alex M; Rich, Jeff A; Beaton, Rachael L; Kewley, Lisa J

doi:10.1093/mnras/stae2119

Quantifying azimuthal variations within the interstellar medium of z ~ 0 spiral galaxies with the TYPHOON survey

Chen, Qian-Hui; Grasha, Kathryn; Battisti, Andrew J; Wisnioski, Emily; Li, Zefeng; Park, Hye-Jin; Groves, Brent; Torrey, Paul; Mendel, Trevor; Madore, Barry F; Seibert, Mark; Sextl, Eva; Garcia, Alex M; Rich, Jeff A; Beaton, Rachael L; Kewley, Lisa J

Authors

Qian-Hui Chen

Kathryn Grasha

Andrew J Battisti

Emily Wisnioski

Zefeng Li zefeng.li@durham.ac.uk
Postdoctoral Research Associate

Hye-Jin Park

Brent Groves

Paul Torrey

Trevor Mendel

Barry F Madore

Mark Seibert

Eva Sextl

Alex M Garcia

Jeff A Rich

Rachael L Beaton

Lisa J Kewley

Abstract

Most star formation in the local Universe occurs in spiral galaxies, but their origin remains an unanswered question. Various theories have been proposed to explain the development of spiral arms, each predicting different spatial distributions of the interstellar medium. This study maps the star formation rate (SFR) and gas-phase metallicity of nine spiral galaxies with the TYPHOON survey to test two dominating theories: density wave theory and dynamic spiral theory. We discuss the environmental effects on our galaxies, considering reported environments and merging events. Taking advantage of the large field of view covering the entire optical disc, we quantify the fluctuation of SFR and metallicity relative to the azimuthal distance from the spiral arms. We find higher SFR and metallicity in the trailing edge of NGC 1365 (by 0.117 and 0.068 dex, respectively) and NGC 1566 (by 0.119 and 0.037 dex, respectively), which is in line with density wave theory. NGC 2442 shows a different result with higher metallicity (0.093 dex) in the leading edge, possibly attributed to an ongoing merging. The other six spiral galaxies show no statistically significant offset in SFR or metallicity, consistent with dynamic spiral theory. We also compare the behaviour of metallicity inside and outside the corotation radius (CR) of NGC 1365 and NGC 1566. We find comparable metallicity fluctuations near and beyond the CR of NGC 1365, indicating gravitational perturbation. NGC 1566 shows the greatest fluctuation near the CR, in line with the analytic spiral arms. Our work highlights that a combination of mechanisms explains the origin of spiral features in the local Universe.

Citation

Chen, Q.-H., Grasha, K., Battisti, A. J., Wisnioski, E., Li, Z., Park, H.-J., Groves, B., Torrey, P., Mendel, T., Madore, B. F., Seibert, M., Sextl, E., Garcia, A. M., Rich, J. A., Beaton, R. L., & Kewley, L. J. (2024). Quantifying azimuthal variations within the interstellar medium of z ~ 0 spiral galaxies with the TYPHOON survey. Monthly Notices of the Royal Astronomical Society, 534(1), 883-901. https://doi.org/10.1093/mnras/stae2119

Journal Article Type	Article
Acceptance Date	Sep 5, 2024
Online Publication Date	Sep 11, 2024
Publication Date	2024-10
Deposit Date	Nov 7, 2024
Publicly Available Date	Nov 7, 2024
Journal	Monthly Notices of the Royal Astronomical Society
Print ISSN	0035-8711
Electronic ISSN	1365-2966
Publisher	Royal Astronomical Society
Peer Reviewed	Peer Reviewed
Volume	534
Issue	1
Pages	883-901
DOI	https://doi.org/10.1093/mnras/stae2119
Public URL	https://durham-repository.worktribe.com/output/3085277